Electromechanical telegraph system.



W. K. QUEEN & T. F. PIGKETT. ELEGTROMEGHANIGAL TELEGRAPH SYSTEM.

APPLIOATION FILED JUNE 17, 1910.

Pateilted July 1, 1913.

12 SHEETS-SHEET 1.

WITNESSES W. K. QUEEE & '1. F. PIGKETT. ELEOTBOMBOHANIOAL TELEGRAPH SYSTEM.

APPLICATION I'ILED JUEE 17, 1910.

Patented July 3., 1913.

12 BHEETi-BKBBT 2.

W. K. QUEEN & T. F. PIGKETT. ELBGTROMBGHANIOAL TELEGRAPH SYSTEM.

APPLICATION FILED JUNE 17, 1910.

Patented July 1, 1913.

12 SHEETS-SHEET 3.

\X/ITPIESSEIE: VENTURE: QQJJVZMM Wang/Mam? W. K. QUEEN & T. F. PIGKETT. ELEGTROMEOHANICAL TELEGRAPH SYSTEM.

APPLICATION FILED JUNE 17, 1910.

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W. K. QUEEN & T. P. PIOKETT. ELEOTROMEGHANIGAL TELEGRAPH SYSTEM.

APPLICATION FILED JUNE 17 1910. Lfififififik Patented July 1, 1913.

12 SHEETS-SHEET 5.

W. K. QUEEN & T. F. PIGKETT. ELBOTROMEOHANIGAL TELEGRAPH SYSTEM.

APPLICATION FILED JUNE 17, 1910.

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W. K. QUEEN G: T. F. PIGKETT. ELBGTBOMBOHANIGAL TELEGRAPH SYSTEM.

APPLIOATION FILED JUNILH, 19.10.

Patented July 1,1913.

12 SHEETS-SHEET 7.

W. K. QUEEN & T. F. PIOKETT. ELECTROMEGHANICAL TELEGRAPH SYSTEM.

APPLICATION FILED JUNE 1'7 1910.

12 SHEETS-SHEET 8.

Patented July 1, 1913.

M %l|| IIIII 0 \w 4 5 2 Q 5 1 5 w E M \N 1 OC W. K. QUEEN & T. F. PIGKETT.

ELBGTROMBGHANIGAL TELEGRAPH SYSTEM.

' APPLICATION FILED JUNE 17, 1910. 1,066, 147.

' Patented July 1, 1913.

12 SHEETS-SHEET 9.

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/ APPLICATION FILED JUNE 17, 1910.

1,066,147.. Patented July 1, 1913.

12 SHEE'ISSHEET l0.

W. K. QUEEN & T. F. PIGKETT. nnzomnouncmmoan TELEGRAPH SYSTEM.

APPLIOATIOH FILED JUNE 17, 1910.

1,066,147. Batented July1,1913.

12 SHEETS-SHEET 11.

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W. K. QUEEN & T. F. PIGKETT. ELEGTROMBGHANIGAL TELEGRAPH SYSTEM.

APPLICATION TILED mm: 17, 1910.

1,066,147. Patented July 1; 1913.

12 SHEETS-SHEET 12.

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r'rnn sTA ENT OFFICE.

WALTER K. QUEEN AND THORNTON F. PIOKETT, 0F NEEDHAM HEIGHTS, MASSACHU- SETTS, ASSIGNORS TO THE Q-I SIGNAL COMPANY, A CORPORATION 01 MASSACHU:

I Application filed June 17, 1910. Scria1No. 567,470.

T 0 all whom it may concern:

Be it known that we, WALTER K. QUEEN. and Tnonn'ron F. PIGKETT, a citizen-of-the United States and a subject of the King of England, respectively, and residents of Needham Heights, in the county of Norfolk and State of Massachusetts, have invented a new and useful Improvement in Elect-romechanical Telegraph Systems, of which the following is a specification.

Our invention relates to electromechanical telegraph systems and more especially to such systems which are adapted for'the transmission of visual and audible signals from the pilot house ornavigation bridge of a vessel to, the engine room and vice versa.

One object of our invention is to'provide a system. controlled electrically and actuated mechanically whereby an order concerning the direction and speed of the engines can be transmitted from the pilot house to the engine room-and a reply signal transmitted from the engine room to the pilot house, each. signal being received visually, with an accompanying audible signal if desired.

Another objectis to provide. a system whereby a visual signal controlled by the shaft of the engine is automatically transmitted from the engine room tothe pilot house showing the direction in which the engine is running, together with an audible s gnal giving a continuous alarm in the pilot house or engine room, or both, when the engine is running inthe direction opposite to that which was signaled from the pilot Still another object is to provide means whereby a printed record of the signals relating, to the direction and speed of the engines, together with the time of the transmission of such signals, if desired, may be made both, in the'pilot house and in the en gine room.

A further object is to provide .a transmitter or controller switch for the si als re.- lating to the direction andspeed o the engine which will remain fixed in the position in which it was last operated, although the circuit which controls the transmission of such signal remains closed only during the actuation of said switch.

A still further object is to provide means whereby an audible and visual signal-will Specification of Letters latent.

nnnernomnonamon. TELEGRAPH SYSTEM.

Patented July 1, 1913.

be given when any one of the several springmotors employed requires re-winding.

Other subordinate objects will be hereinafter set forth in the detailed description of our invention. a

Our invention will be particularly described by reference to the drawings which accompany and form a part of this specification and which illustrate one. form of apparatus and one arrangement of circuits whereby the foregoing objects. may be effected.

Inthe drawings, Figure 1 is a diagram ofone arrangement of circuits which may be employed in connection with the apparatus illustrated in the other figures. Fig.

2 isa plan view of our preferred form of transmitter or controller switch. Fig. 3 is a central section of the transmitter, with certain parts shown in elevation. Fig. 4 is a pl anview of the transmitter with the cover removed,-certain parts being shown in section. Fig. 5 is a horizontalsection taken on the line. 55 of Fig. 9 showing the sig nal-selecting and signal-controlling mecha-v nism in plan view. Fig. 6 is a plan view of the signal-controlling mechanism. Fig. 7 is a vertical section taken on the line 7 7 of Fig. 5, showing parts of the selecting and controlling mechanisin'in elevation- Fig. 8 is a horizontal section taken onv the line 88 of Fig. 9. Fig.9 is a vertical sect-ion taken on the line 9-9-0f Fig. 8 with certain I parts shown in elevation. Fig. 10 is an elevation of the complete receiving apparatus, certain parts being, shown in a section taken on the line l010 of Fig. 8. Fig. 11 is an elevation offaportion of the receivingapparatus'. Fi 12 is an elevation of one of the signal-Se ecting or position-controlling magnets showing the latching mechanism.

Fig. 13 is an elevation, partly in section, of-

102 by mo-isture-proof joints 100,100- and provided with a horizontal shelf 47 located about midway between the base and cover and supported from the base by the posts +7". The central shaft 48, having its bearings at 48 in the base and at 48" in said shelf. supports the signal drum 65 which carries the signals relating to the direction and speed of the engine, said drum being secured to said shaft in any suitable manner, as by the collar 66. which is bolted to the drum and fixed to the shaft by a pin. The shaft and drum normally are at rest. and by means of a spring or other motor, rotary motion may he imparted thereto forbringing one of said signals concerning the direction and speed of the engines opposite the window 5' in the casing. as shown in, Fig.

10. In the present instance the gear-wheel 63 of the spring-motor 62 meshes with a pinion ()4 carried by the central shaft to rotate the drum when the signed-controlling means is. operated in the manner hereinafter set forth.

Electro-responsive signal-selecting means preferably are employed for the purpose of determining the position at which the si naldrum will stop after the signal contro ling means has been operated. \Vhilevarious forms of signal-selecting mechanism may be used, we prefer to employ the arrangement shown in Figs. Sand 7. Secured tothe shelf 47 and arranged concentrically with the central shaft. are as many position-controlling or signal-selecting magnets A as there are signals to be transmitted. In the present instance twelve such magnets are shown, each provided with a stop-lever 52, each stop-lever being normally held in elevated or inoperative position as shown in Fig. 7, by its spring 53. 58 is a stop-member, herein shown as a stop-wheel provided with the stop (32, with which each stop-lever '2 is arranged to coiiperate when depressed into stopping-position by the energization of its magnet A. The stop-wheel is fixed relatively to the signal drum and is rotatable therewith, and preferably is secured, as shown, to the central shaft which carries said drum by a resilient member whereby the shock caused by the sudden contact of the stop 62 with one of the stop-levers may be relieved. In the present instance the spiral spring 60 has its ends secured respectively to the hub 59 of the stop-wheel and to the collar 61, which is fast to the shaft.

Signal-controlling means consisting in the present instance of the releasing-arms 49 connected by the rim 50, is rotatably secured to the central shaft immediately below the stop-wheel and one or more of said releasing-arms may be provided with armatures 51, 51, arranged to cotiperate with the controlling magnets E E, which are attached to the shelf 4'7 to impart a rotary motion tosaid arms about said shaft. It will be understood, however that such rotary mo.- tion may be given to saidreleasing arms by any suitable electro-responsive device. The springs 49 secured to two of the arms 49, and the magnets E, normally hold the arms 4-9 against the stop-member 49 which may be a post rising from the shelf 47' r In front of each magnet A is a standard 56 having a latch 54 pivoted thereto, at 55 and held normally in latching position by the plate spring 57. ,As shown 'most clearly in Fig. 12, the head of each latch is held by said spring slightly under the-end ofithe stop-lever 52, so that when .a magnet A is energized and the lever depressed, the latch willsnap over the same and hold it in its depressed or stopping position so that its outer end lies in the path of the stop 62. In their normal positions, when the-magnets E E are not energized, the ends of the releasing arms are directly in front of the latches as shown in Figs. 5 and 7, and upon the energization of said magnets a rotary motion ofa few degrees in a horizontal plane is imparted to said arms about the shaft 48 by the attraction of the armatures 51 to the magnets E so that each arm strikes its coiiperating latch, thereby releasing that particular stop-lever 52 which happens at that time to be held down. The release of said stop-lever enables the spring-motor62, or such other actuating means as may be employed, to rotate the shaft andsignal-drum. e are'aware that purely electrical marine telegraphs and purely mechanical marine telegrapl1s.-are old; but, so far as we are aware, it is broadly new with us to control or start the receiving apparatus of a marine telegraph system electrically and then operate the same mechanically. \Vhen the circuit of one of the magnets A is closed, its armature is attracted and its stop-lever 52 is held down in the path of the stop 62 by one of the latches 54, so that the rotation of the central shaftimparted by the springmotor 62, as soon as the releasing mechanism releases the stop-lever which was previously held down, will bring said stop against that particular stop-lever which is associated with the energized magnet. This will cause the drum to exhibit behind the window 65' the signal selected by the apparatus which closed the circuit of the magnet A in question. It will be obvious that the controlling magnets E E- must be energized only momentarily and that they must be so timed that the releasing arms are brought back to their normal positions before the circuit of the particular magnet A, which is energized for selecting a given signal, is opened. The particular means whereby the proper actuation of the magnets A and E is effected, will be hereinafter described in detail in connection with the diagram shown in Fig. 1.

pilot house or bridge to the engine room,

and viceversa, together with the time-of their transmission in Figs. 8, t) and 10 we have shown such recording apparatus.

In these figures, 72 is a signal-type wheel carrying on its periphery type'spelliiig out the signals which are printed on the signal drum. The type-wheel is rotated synchronously with the shaft 48 by any suitable means such as the miter gears 73, and is so arranged that when a given signal is ex hibited at the window in the-casing, the type which spell out the corresponding signal on the type-wheel are uppermost so as to cooperate with the hammer 96. 71 represents time-type wheels operated through the shaft 71 by any suitable clockmechanism 68. in a standard on the base 101 carries the tape 75 which passes between the carbon paper disk 92 and the hammer 96, so that when the latter strikes the tape against the carbon paper diska'nd type-wheels, an impression is made on the tape showing the signal which has been transmitted and the time of its transmission. The carbon paper disk 92 is supported by the stiff paperv disk 93 and is clamped bythe thumb-screw 91 to the stud 90 which has a bearing in the post 87. The stud is rotated in any suitable manner, as for example, by the belt 89 which passes around a pulley on the spring-motor and a pulley 88 on said stud. Various means may be employed to impart the necessary. step-by-step motion to the tape 75 and in the present case we have shown the roller 76 provided-with the operating ratchet 82 and the hold-back ratchet 83. The operating pawl 81 (see Fig. 8) is held by the wrist-plate 80 and the latter is pivoted to the arm 79 operated by the magnet I) through the interposition of the vertical arm 78 and the horizontal arm 77, which in turn is secured to the armature 10 of said magnet. The hold-back pawl 84 (see Fig. 9) is secured to the standard in which the roller 76 is journaled and per forms the usual function of preventing retrograde motion of said roller. The nn'ignet G provided with the armature 94 operates the hammer which is carried on the arm 95.

As shown in Fig. 9, the receiving aparatus in the pilot house or navigation ridge is not necessarily provided with an audible signal, although such audible signal may if desired be used; but the receiving apparatus ,in the engine room preferably is provided with such audible signal. In the present instance, the audible signal consists,'

as shown in Fig. 10, of an electro-mechanical gong 116 of the usual well known construction mounted on the cover of the easing 47. The operating mechanism of this A tape-wheel 7i journaled gong is ca'rried in the-base 114 thereof? and the spring-motor of such mechamsmsamay be wound by the usual stem extcndingaip mtothe tube which is closed b \-'.-the capj 115. r

This cap, like those shown at 67 and ($9 for closing the orifices mto which the windmg mechamsms for the drum motor and.

clock-movement extend, preferably is con-g,

tor or run-down-indicator apparatus -indn eating the particular motor or motors which require attention. The audible alarm which is'located outside thegcasing will-be deannnnciator. magnets H H are connected visual indicators or annunciatorsare shown at H, H (see Figs. 8, 9, and. "11). ,The

with suitable contacts on the drum-operatmg-motor and the clock-moveme nt, respectively, and the magnet H" is colmccted'with similar contacts on the motor of the gong 116, if such gong is employed. The targets 97 are pivoted on the rods 97' and normally each has the position shown in Fig. 1 1 \Vhen one of the magnets is energized. corresponding target swings over oppos the window 99 formed in the usual manner, by painting'the glass plate 98. Afterfanb indication has been given, the target may, be returned to its normal position in anyconvenient way, or the annunciator maybe so constructed that as soon as-a magnet is. deenergized by the opening of its circuit, the target is automatically restored. An example of the spring-motor-controlled contacts, which operate the annunciators abbve described when a motor requires winding, is shown at15' in Fig. 8.

Referring now -to Fig. 1. in which the several electrical elements above. described areshown in diagram; X represents the terminal station in the pilot house or on the nals 1 2' at thev pilot house will close the circuit"'throngh one of the agnets A -in the engine room in the follo i ing manner: from the positive terminal of the direct-cum rent source 3 to the back-contact 6 of the current-source-control relay. B, which, conr lay C,.coiiductor I), through one of the trols the particular current source employed,

t he fme i where fl tte m the econ ry- W ontr l' l S e bv" iofithe'c f 5 ,1 ee gmi dem; he .f iiihrough ne" i thetmagnet at hepilbt house in the i new m the p sitive. t n o b kii ta t 6, i m n comment magnets A, andthence through oiie tifthe conductors c tothe particular" set of contactsl, 2, which are bridged, and thence back to the source by way of the return wire (Z. The circuits which have just been traced are termed the primary circuits. The closure of one of said circuits and" the conse quent energi zation of-therelayG, effect; the closure of the secondary circuitq} E E 1 11,10, 12, 9, which is connected in shu t.

- to the primary circuit and'which includes the controlling magnets E; and magnet F for operating theelectro-mechanical gong 116, A tertiary circui't'fD g,'connected in shunt to said secondary circuit, includes the magnet D, which is a relay controlling the sequence of operation of the magnets E, F and (hand which also operates the mechanism for giving a step-by-step movement to the tape 7 5, A fourth circuit a G e 13, 14, also connected in shunt to the primary circuit, includes the recording-apparatus-actuating magnet G which operates the hammer-96. The energization of the relay 0 in the engine room will momentarily close the circuits of the magnets E, F, thereby operating the signal-controlling mechanism shown in Figs. 5, 6 and 7 and the electro-mechanical gong 116', as follows: from the positive terminal of the source 3, to the back-contact 6, armature 5, conductor a, through the magnets E and the magnet F to contact 11, arrnature 10 of relay D, contact 12 (the armature 10 normally being spring-held against said contacts 11 and 12) to armature 8 of relay C, back-contact 9, and thence back to the other terminal of the source by way of the common return conductor d. The relay D is so timed that immediately after the closure of the circuits just traced through E and F, the armature 10 is attracted, thereby breaking said circuits. The circuit through the relay D maybe traced from the positive terminal of the source 3 to the back-contact 6, armature 5, conductor a, point f, winding of the relay, point g, armature 8, back-contact 9, and thence back to the other terminal of said source by way of the common return conductor d. The

energization of said relay D will open the circuits, of the magnets E and F at the; cone cactsii; 12, and will" time the circuit thrdagl the apparatus-actu ting t" as" all ws": rom e. pos ti al of the soothed, to the backcontact nctori fi infig'fl (3st (the ich are now bridged A e t an s fl'a't fl ar" w re it); thenceback to the o irea rdr-rhes ureby way of on 'c minoiif i" condujemr d; As soon as manner; i i i' f fii itie secondary-circuit control relay C there :by" deenergized, the armature 8 is thrown over to its front'c onta'ct, thereby breaking the circuit through the relay D, and the various apparatus resume their normal positions, ekc'eptof course the stop-lever 52 associated with that particular magnet A which energized b bridgin said termina-ls, such stop-lever being held in its operativepo-sition by its latch 54. When one ofthe terminals 1, 2 in the engine room is bridged and the' secondary-circuit control relay C inthe pilot house is energized, the

relay D at the pilot house closes the secondary circuits through the signal-controlling-magnets E and the recording-apparatus-actuating magnet G as follows: from the positive terminal of the source 3.120 the backc'ontact 6, ar1nature 5, conductors a and k. back-contact 9 of relay C, armature 8, contact 12', armature 10, contact 11', (the armature 10' normally being spring-held against contacts 11 12') magnets E, conductor 1, thence back to the other terminal of said source by the common return wire (Z. Immediately after the energiza-tion of said magnets E and the resulting operation of the releasing mechanism 49, 50 above referred to, the relay D is energized by current taking the following path: from the positive terminal of the source 3 to the back-contact 6, armature 5, conductors a and 70, contact 9, armature 8', point 7%,tl110l1gh thewindings of said relay to point 772;. conductor Z, thence back to the other terminal of the source by way of the common return wire d. The energization of the relay D will open the circuit of the magnets E at the contacts 11, 12 and will close the circuit of the recording-apparatusactuating magnet G as follows: .from the positive terminal of the source 3 to the backcontact 6, armature 5, conductor 7', contacts 13 14, which are bridged by a metallic strip secured to, but insulated from, the armature 10, through the windings of said magnet to point m, conductor Z, and thence back to the other terminal of the source by way of the common return wire d. As soon as the primary circuit is o ened in the engine room, the relay C" at t e pilot house into operative or wheel-stopping position with its end extending into the pathof the stop 62 on the wheel 58 and that-it .is .held in such position by the spring-pressed latch 54. Immediately afterward, rue energize,- tion of the .secondaryscircuitlcontrol .relay 0 or C will actuate thesignal-controlling mechanism so that the .arms 49 will strike all the latches, including the oneassociated with the magnet A or A which .has just been energized, as well as the one associated with the magnet A or A .which wasenergized for the transmission of the signal lasttransmitted. The stop-lever associated with the magnet which was energized :for the transmission of the signal last transmitted will of course rise toitsnormalposition, its magnetnow being deenergized,but thestoplever actuatedby the magnet which has just been energized for the transmission .of the new signal Will remaindown, and whenthe releasing magnets are deenergized and the springs 49 retractthe arms 4C9 totheirnormal position, the last mentioned stop-lever will remain down with itsend in the vpath of the stop (59 forthepurpo'se of arresting the rotation. of the. signal drum at the proper point. In other words, a primary circuit must remainclosed until after the deenergization of the signal-controlling magnets E, and thelatter, as .well as the relay C, preferably should be quick -."acting magnets, while the relaylD should be somewhat. sluggish in action for the double purpose of enabling the releasingmagnet Etc act before the circuit of the latter is broken at the contacts 11, 12, and also enabling the signal drum and its synchronously rotating signal-type-wheel 7210 arrive at their proper positions before its complete energization which effects the closure ofthe circult of the recordingeapparatus-actuating magnet G at the contacts 13,14.

:It will beunderstood that the-arrangement represented in Fig. 1 for closing the circuits which include the contacts .1 1, .12 and 13, :14,respectively, is purely diagrammatic andthat our preferred mode of controlling .said circuits is shown in Figs. 8 and 9. The spring-membersll, 12 .are normally held-in contactiby the upright extenshin-:86 of .thefarm 85, which 1s secured to the armature 10 of the magi-net D,'the spiral spring normally holding said armature away from its core. As soon as therelayD is energized andthe armature l0 is-attr'acted, the said extension 8.6 presses the spri-ngcontacts 13,114 intohcontact and allows the spring contacts-Hand 12 to separate. However, as will be readily understood, yarious other equivalent arrangements can be em ployed for this purpose.

The source ,3 referred'to, which mayfhe any suitable form of dynamoelectricLmachine, is connected in series with the current supplyrcontrol relay B, ashunt circuit connecting one pole thereof herein shown as i a positive pole,,to the backcontact of, said relay. -When thesaid source-3 is in operation, the .relay B is energized and the armature 5 is held against said back-contact, so thatas above described,the various magnets and relays areenergized by current flowing from saidpositive .pole by wayof said'backecontact and armature! If for any reason the generator 3 should be shut down, theresultingdenergization of the relay B will allow the armature 5 to fall forward against the front contact 7 whereupon current willflow to the several ,relaysand magnets from the positive terminal of the storage or other battery 4 by way of said front contact 7 and armature 5- The contacts for the .run-down-alarm apparatus Iatt-he pilot house are shown at 15,

'16 andthose .for the run-down-alarm apparatus I in the engine .room are shown at 15' 16 and 17. It wilLbe obuious tha-twhen any of the pairs of contacts are closed, a continuous alarm will be given by ;I or I and that one of the annunciator magnets :11 H or H" will be energized,.thereby,throwingits target 97 infront of one of the windows 99 (see Fig. 111) so that the attendant will know which oneof the severalspringmotors or clocksmovements requires winding. The circuits through thesaid alarms and annunciators may be traced asfollows: from the positive terminal of the source 3.to the back-contact 6, armature.,5, conductors a and 9', through the windings of thealarm I and thence back to the other terminal of said source through the windingof one of the magnets H, one of. the pairs of contacts 1.5 or 16, conductor 2', and common return conductor (1!; and from the positivepoleof the-source 3 to the back-contact 6, armature 5, conductors a. and h, through the winding of the alarm l and thence back totheolhe'r terminal of said sourcethrough the wind-' ing of. one of the magnets H, orthe winding not wish to limit ourselves to any particular form of transmitter for closing the pri- This transmitter consists of a casing 25 proto one of said notches.

vided with a cover 99 secured thereto by a n n I moisture-proof o1nt -13 and with conduits 1 26 for the conductors c or c, said conduits being packed in the usual manner to make a moisture-proof joint. The tube 27, provided with the longitudinally extending slot 34: near its lower end, is rotatably-mounted in the casing in any suitable manner. In the present instance a boss 28 on the Cas ing, a bushing 30 which is threaded thereto and the socket 28 in the base of the casing atlord the bearings for said tube. The arm 34 projecting through the slot 31 is secured to the plunger 32 which is arranged within the tube 27 and which may be held in cooperation with the lever by the spiral spring or other suitable resilient means. An insulating plate secured to the base carries the contact strip 2 which is concentric with the axis of the tube 27 and which-corresponds to the terminals 2 or 2 in Fig. 1. The said insulating plate also carries as many contact springs 1 as there are signalsclecting magnets A or A, each of said springs being radial with respect to the axis of the tube 27 and having its inner end extending over the contact strip :2. .A ring 42, supported from the insulating plate by the posts 12' is arranged over the contact strip 2 and carries as many vertically mov- 5 able studs 41 as there are contact springs 1, each stud being arranged over and normally in contact with one of said springs. For effecting the cooperation of the contact members 1 and 2, we may employ the operating member or lever pivoted at 35 to E the upturned ends of the yoke 30, which is slotted at 31 and provided with a ring 31 whereby it may be securely clamped to the tube 27. To energize any particular signalselecting magnet, the lever 35 is rotated by its handle 35 until the arm 31, to which motion is communicated by the walls of the slot 34, is over the desired stud 41, whereupon the lever is depressed, thereby operating the plunger 32 against the resistance of the spring and causing the arm 3st to push its cooperating stud 41 against the spring-contact 1 until the latter makes contact with the contact strip 9, thereby closing one of the primary circuits. The lever will be held in its depressed position until the cycle of operations above described in connection with Fig. 1 has been efi'ected, whereupon it is released and the spring 33 causes it to resume its normal position. It is desirable that the lever 35 remain locked in the last position in which it was operated to close aprimary circuit, and for this purpose we may employ the notched plate 40 having a series of notches 37 in its.

outer edge which is concentric with the axis of the tube 27, and a series of holes 39, each in a radial line from the axis of said tube The lever is provided with a guiding-pin 38 adapted to enter each of the holes 39 when the lever is depressed, and the handle of the lever is provided with a pivoted spring-pressed hamloperated latch 36 cooperating with the notches 37 and terminating in the hand-grip 36' arranged under the handle 35". The 'plate 40, which is shown as supported from the cover of the casing by the posts 40' may be provided with a series of signal indications, one opposite each of the holes 39, to govern the operator in the positioning of the lever for the transmission of a signal. The insulating plate on the base of the transmitter may also carry the contact strips 20, 21 and 2 1. In such case the arm 45, which is clamped to the tube 27, carries a spring-contact member 46, which is insulated therefrom and which bridges either' pair of contact-members 20, 21 or 21, 24, according to one of the extremepositions of the lever 35. The contact-strip 21 is arranged as shown in Fig. 4 so as always to be. in contact with the member 40, the strip .20 is arranged to be in contact with the member 46 so long as the lever 35 is in position to send a signal directing the engines to run ahead, and the contact-strip 21 is arranged to be in contact with the member 46 so long as said lever is in position to send a signal directing the engine to run astern. The collar 27 may be employed to prevent the upward movement of the tube :27 and to maintain the proper contact between the spring 46 and its cooperating contact strips 20, 21 and 21.

I t is desirable that the pilot house or navigation bridge be provided with an engineshaft-controlled visual-signal showing the direction in which the engines are running, and it is highly desirable that an auxiliary apparatus be employed to give an audible alarm in both pilot house or bridge and engine room when the engine is running in the direction opposite to that which was signaled from the pilot house or bridge. Apparatus for accomplishing these results is shown in Figs. 13 to 16, inclusive, in which 103 represents a suitable standard carrying bearings for the auxiliary shaft 103, on which is loosely mounted the pulley 10 arranged to be driven by the engine shaft in any suitable manner, as for example by a belt running over another pulley on the engine shaft. The pulley 104 may be made integral with the clutch casings 105. each of which incloses the roll-cage 106 and the rolls ].07. The clutch-wedges 108 are oppositely arranged so that as the pulley rotates in one direction, one set of rollers will ride up on the cam surfaces of the clutch wedge and am between said wedge and clutch-casing, and cause the rotation of I weights 110. It will be obvious that the rotation of the main engine shaft and the resulting rotation of the auxiliary shaft 103 in one'direction, for example, ahead, will he instrumental in drawing the circuit-closing disk 19 along the shaft to close the spring-contact members 23, and that the op posite rotation of said shafts astern will cause the circuit-closing disk 18 to move along the shaft 103 to the left to close the spring-contact members 22. The directionindicator visual-signal, located as above stated in the pilot house or on the bridge, consists in the present. instance of a casing 109 having a cover secured thereto by a moistureproof joint, and carrying a standard 110 by which the pivotsof the armature 113 and pointer 113 are supported. The magnets J, K securedvto the base of said casing, operate to move said armature and pointer against the tension of a resilient membersuch as the spiral spring 111, to show, by reference to a suitable dial over which the pointer moves, the direction of rotation of the engines, said member nor-' mally holding said pointer in its central position when the engine is at rest and the circuits of both magnets are open. \Vhen the engine is running ahead and the contacts at 2% are closed, the circuits of the directionindicator may be traced as follows: from the positive terminal of the source 3 to the back contact 6, armature 5, conductor 9*, point q, through the windings of the magnet K, conductor 8, which terminates in the central contact at 23, to the right hand contact at 23 and thence back to the other terminal of the source by way of the conductor 2% and common return wire (Z. Then the engine is running astern and the contacts at 22 are closed, the circuit of the direction-indicator may be traced as follows: from the positive terminal of the source through to the back-contact. 6, armature 5, conductorq to the point 9, thence through. the windings of the magnet J, conductor 1", which terminates in the central contact 22, to the left hand contact at 22, and thence back to the other terminal of the source by way of the conductor If and common return conductor (I. As before stated. when the lever 35 of the transmitter switch is in position to transmit gineer misunderstand the signal and send the engines astern, thereby causing the disk 18 to close the contacts at 22, a continuous alarm will be given both in the pilot house and engine room by the bells or otherwrongdirection-alarm apparatus L L, the circuits of which, each normally open at two points, under such condition are traced as follows: from the positive terminal of the source 3 to the back-contact 6,-armature 5, conductor 9, conductor 2, through the windings of the alarm magnets L L, conductor y, contactstrip 24, bridging-contact -16, co-ntact-strip 20, conductor it which terminates in the right hand contact at 22, left hand contact at 22 (the contacts at 22 being closed by the disk 18 when the engine is running astern) and thence back to the other terminal of the source by way of the conductor if and the common return wire (Z. Similarly, should the engines be sent ahead when astern has been signaled, the circuit of the wrong direction-alarm apparatus is traced as follows: from the positive terminal of the source 3 to the back-contact 6, armature 5, conductor 9, conductor .2 through the windings of the alarm magnets L conductor 3 contact-strip 2-1, bridging-contact 46, contact-strip 21, conductor 1; which terminates in the left band member of the contacts 23, right handcontact at 23, (the contacts at 23 being closed by the disk 19 when the engine made, both in the apparatus and in the circuits connecting the same, without departing from the principle of our invention.

\Ve claim: 1, In a telegraph system, a visual-signal apparatus at one station, a primary circuit, a signal-selecting, magnet in said primary circuit, means at a distant station for controlling said primary circuit, a secondary circuit, a secondary-circuit-control relay, said relay being'controlled by said primary circuit, and electro-responsive means associated' with said secondary circuit for controlling said signal apparatus.

2. In a telegraph system, a visual-signal apparatus and an audible-signal apparatus at one station, a primary circuit, a signalselecting magnetin said primary circuit, means at a distant station for controlling said primary circuit, a secondary circuit, a secondary-circuit-control relay, said relay sive means associated with said secondary circuit for controlling said audible-signal apparatus.

3. In a telegraph system, a visual-signal apparatus and a signal-recording apparatus at one station, a primary circuit, a signalselecting magnet in said primary circuit, means at a distant station for controlling said primary circuit, a secondary circuit, a secondary-oiremit-control relay, said relay being controlled by said primary circuit, electro-responsire means associated with said secondary circuit for controlling said visual signal apparatus, and electro-responsire means associated with said secondary circuit for actuating said recording appa ratus.

It. In a telegraph system, a visual-signal apparatus and a signal-recording apparatus at one station, a primary circuit, means at a distant station for controlling said primary circuit, a secondary circuit, a signalselecting magnet and a secondary-circuitcontrol relay serially connected in said pri mary circuit, visual-signal-controlling means associated with said secondary circuit recording-up )aratus-actuating means, said secondary-circuit-control relay being so constructed and arranged that the visualsignal-controlling means operates after the signal-selecting magnet, and means whereby' the recording-apparatus-actuating means is caused to operate after said visual-signaleontrolling means.

5. In a telegraph system, a visual-signal apparatus and a signal-recording apparatus at one station, a primary circuit, means at a distant station for controlling said primary circuit, a secondary circuit, a signal-selecting magnet anda secondary-circuit-control relay serially connected in said primary circuit, visual-signal-controlling means associated with said secondary circuit recordingapparatusactuating means, said secondarycircuit-control relay being so constructed and arranged that the visual-signal-controlling means operates after the signal-selecting magnet, and means whereby said visual-' signal-controlling means is denergized before the energization of said recordingapparatus-actuating means and said recording-apparatus'actuating means caused to operate after mid visual-signal-controlling means.

(3. In a telegraph system, a visual-signal apparatus and a signal-recording apparatus at one station, a primary circuit, means at a distant station for controlling said primary circuit, a secondary circuit, asignal-selecting magnet and a-secondary-circuit-control re-- lay serially connected in said primary cirapparatus-actuating means and said recording-apparatus-actuating means caused to operate after said visualsignal-controlling means.

7. In a telegraph system, a visual-signal apparatus and a signal-recording apparatus at one station, a primary circuit, means at a distant station for controlling said primary circuit, a secondary circuit, a signal-selecting-magnet and a secondary-circuit-control relay serially connected in said primary circuit, visual-signal-controlling means associated with said secondary circuit, a tertiary circuit connected in shunt to said secondary circuit, a tertiary-circuit relay associated with said tertiary circuit and normally closing said secondary circuit at one point, a fourth circuit connected in shunt to said primary circuit, said fourth circuit being normally open and arranged to be closed by said tertiary-circuit relay, and recording- 'apparatus-actuating means in said fourth circuit.

8. In a telegraph system, a visual-signal apparatus and a signal-recording apparatus at one station, a primary circuit, means at a distant station for controlling said primary eircuit, a secondary circuit, a signal-selecting magnet and a s'econdary-circuit-control relay associated with said primary circuit, visual-signal-controlling means associated with said secondary circuit, recording-apparatus-actuating means,.said secondary-sic 'vcuit-control relay being so constructed and arranged that tlie visual-signal-controlling means operates after the signal-selecting magnet, and means whereby the recordingappa -atus-actuating means is caused to operate after said Visual-signal-controlling means. I

9. In a telegraph system, a visual-signal apparatus at one station, a primary circuit, means at a distant station for controlling said primary circuit, a secondary circuit, a signal-selecting magnet and a secondarycircuit-control relay associated with said primary circuit, and visual-signal-control ling means associated with said secondary circuit, said secondary-circuit.-control relay being so constructed and arranged that the visual-signal-controlling means operates after the signal-selecting magnet. 

